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Publications by Erik Verlage

A Monolithically Integrated, Intrinsically Safe, 10% Efficient, Solar-Driven Water-Splitting System Based on Active, Stable Earth-Abundant Electrocatalysts in Conjunction With Tandem III–V Light Absorbers Protected by Amorphous TiO2 Films

Energy and Environmental Sciences

Sustainability

Renewable Energy

Nuclear Energy

Environmental Chemistry

English

Web-Based Interactive Simulations and Virtual Lab for Photonics Education

2019

English

Related publications

Efficient Solar-Driven Water Splitting by Nanocone BiVO4-perovskite Tandem Cells

Science advances

Multidisciplinary

2016

English

Electrocatalysts: Recent Advances in Earth-Abundant Heterogeneous Electrocatalysts for Photoelectrochemical Water Splitting (Small Methods 6/2017)

English

An Analysis of the Optimal Band Gaps of Light Absorbers in Integrated Tandem Photoelectrochemical Water-Splitting Systems

Energy and Environmental Sciences

Sustainability

Renewable Energy

Nuclear Energy

Environmental Chemistry

English

Correction: Highly Efficient Photoelectrochemical Water Splitting by a Hybrid Tandem Perovskite Solar Cell

Chemical Communications

English

Amorphous NiFe Nanotube Arrays Bifunctional Electrocatalysts for Efficient Electrochemical Overall Water Splitting

English

Energy Focus: Earth-Abundant Photocorrosion-Resistant Material Used for Solar Water Splitting

MRS Bulletin

Materials Science

Theoretical Chemistry

Condensed Matter Physics

Physical

2018

English

Defect Engineering of Earth-Abundant Solar Absorbers BiSI and BiSeI

English

Earth-Abundant Hydrogen Evolution Electrocatalysts

Chemical Science

Chemistry

2014

English

Water Splitting Exceeding 17% Solar-To-Hydrogen Conversion Efficiency Using Solution-Processed Ni-Based Electrocatalysts and Perovskite/Si Tandem Solar Cell

English

Amanote Research

Discover open access scientific publications

Search, annotate, share and cite publications

Publications by Erik Verlage

A Monolithically Integrated, Intrinsically Safe, 10% Efficient, Solar-Driven Water-Splitting System Based on Active, Stable Earth-Abundant Electrocatalysts in Conjunction With Tandem III–V Light Absorbers Protected by Amorphous TiO2 Films

Web-Based Interactive Simulations and Virtual Lab for Photonics Education

Related publications

Efficient Solar-Driven Water Splitting by Nanocone BiVO4-perovskite Tandem Cells

Electrocatalysts: Recent Advances in Earth-Abundant Heterogeneous Electrocatalysts for Photoelectrochemical Water Splitting (Small Methods 6/2017)

An Analysis of the Optimal Band Gaps of Light Absorbers in Integrated Tandem Photoelectrochemical Water-Splitting Systems

Correction: Highly Efficient Photoelectrochemical Water Splitting by a Hybrid Tandem Perovskite Solar Cell

Amorphous NiFe Nanotube Arrays Bifunctional Electrocatalysts for Efficient Electrochemical Overall Water Splitting

Energy Focus: Earth-Abundant Photocorrosion-Resistant Material Used for Solar Water Splitting

Defect Engineering of Earth-Abundant Solar Absorbers BiSI and BiSeI

Earth-Abundant Hydrogen Evolution Electrocatalysts

Water Splitting Exceeding 17% Solar-To-Hydrogen Conversion Efficiency Using Solution-Processed Ni-Based Electrocatalysts and Perovskite/Si Tandem Solar Cell